"Answer the following. You may Use extra paper for your answer. 1. What is the electric flux passing through a Gaussian surface that contains 2 protons and1 electron?
Q: 1. A 30 cm long thin-walled cylinder of radius R = 3.5 cm, has charge of 1 x 10-8 C uniformly spread…
A: Given: The length of the cylinder is l = 30 cm The radius of the cylinder is R = 3.5 cm The charge…
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Q: Two non-conducting coaxial cylindrical shells, each with uniform volume charge density Po, are shown…
A: Given data: The uniform volume charge density is ρo. According to the Gauss theorem: ∮E→·dA→=qeεo…
Q: 6. A thin spherical shell carries a uniformly distributed charge of -10Q. A concentric thin shell of…
A: The above can be answered based on the property of electric field lines
Q: DETAILS SERPSE8 23.P.034. The electric field along the axis of a uniformly charged disk of radius R…
A: Electric field due to point charge E = kq/r2
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A: Here given an infinite uniform line charge with total charge Q. We have to find the electric field…
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Q: 4. An electric dipole is enclosed in a spherical surface. What is the electric flux through the…
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Q: placed between two large parallel conducting plates, a distance Lapart, with s a charge +Q, the…
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Q: Find the electric field everywhere of an infinite uniform line charge with total charge Q. Sol.…
A: ∮E→.dA→=Qencε0EA=Qencε0E2πrL=Qencε0
Q: The picture shows 2 infinite lines with charge density (λ) that are parallel to one another and are…
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Q: Consider a cubic surface C, a spherical surface S, and right cylindrical surface R. All of the…
A: Correct option is (d) i.e all of the mentioned surfaces will have the same flux
Q: An infinite sheet of charge at z = 0 with surface charge density equal to pe = .2 C/m2, what is the…
A: Given, Infinite sheet of charge placed at z=0. Surface charge density ρs=0.2C/m2. We need to find…
Q: The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.10 m. It lies in…
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Q: A charge of 2 micro-C is located inside the sphere of radius 2 m. Find the density of the electric…
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Q: Infinite Lines. Two parallel infinite lines of charge with linear charge densities +X and X are a…
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Q: II III IV V VI 2. Five infinite parallel planes of charge have surface charge densities o, -o, o,…
A: The electric field produced by an infinite charged plane is always normal to the plane, and is given…
Q: Given that the net enclosed charge by the Gaussian surface is zero. Select all correct options. More…
A: As per the guidelines, we can attempt only 1st question.
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Q: 1. A spherical Gaussian surface surrounds a point charge (q), if the radius of the sphere is…
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Q: Item 19 If a car stops suddenly, you feel "thrown forward." We'd like to understand what happens to…
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Q: What is the electric field strength in region 2 of the three, infinitely-large sheets of…
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Q: Positive charge +Q is uniformly distributed on the upper half of a semicircular rod and negative…
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Q: d) Using Gauss’s Law, and with adequate explanation derive an expression for the electric field…
A: (d) definition of gauss law is as follows the flux of the electric field through any closed surface…
Q: . A hemispherical surface with radius r= 12 cm in a region of uniform electric field E = 10 V/m has…
A: Electric flux is the number of net electric lines through surface area. Electric flux = E̅•A̅
Q: Pronterm 9. A uniformly charged thin walled cylindrical shell has a total charge Q, radius R, and…
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Q: . An infinitely long nonconducting cylinder of radius R carries a uniform volume charge density of…
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Q: For a spherical surface with radius 0.11 m and is charged by 27 nC, the electric field E at r= 0.26…
A: Given: Radius of the sphere is 0.11 m. Charge on the sphere is 27 nC. Point at which the electric…
Q: The electric charge Q is uniformly distributed between two very long equatorial shells with radii R1…
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Q: Two infinite, nonconducting sheets of charge are parallel to each other as shown in the figure. The…
A: Given: Charge density on left sheet=σ Charge density on right sheet =-σ
Q: A particle with charge Q = 4.70 uC is located at the center of a cube of edge L= 0.160 m. In…
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Q: MonkaW. What is the electric flux on a flat circular disk with diameter d = 4 [m] immersed in a…
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Q: 4) A ring of radius a carries a nonuniform charge density of 1 = 1, sin o. Let the ring lie in the…
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Q: n the shell given below, it has a +q charge on a conducting sphere, of radius “a”, which is placed…
A: Given: The charge of the inside sphere is q The charge of the outer shell is -q The radius of the…
Q: 4. A plastic solid sphere is positively charged with volume charge density +p. The sphere has a…
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Q: Problem 5: Find the angle (using trig or a protractor), the electric force, the tension in the…
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Q: Find the electric field everywhere of an infinite uniform line charge with total charge Q. Sol.…
A: All the answer are enclosed in boxes.
Q: estion 5 A hollow long conducting cylindrical shell of radius a 0.2m and carries surface charge…
A: Write the given values of this problem. Radius(a)=0.2 mσ=18 nC/m2r=1
Q: uniformly charged hollow thin spherical shell , total charge + 6.90 nC , has a radius R = 0.130 m.…
A: Given Data : Uniformly charged Hollow spherical shell Chare, Q = +6.90nC = +6.90 × 10-9 C Radius,…
Q: missing 5.78 x 1010 electrons). At a distance of 1.18 m from the center of the pointing to the…
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- A uniformly charged conducting sphere of 1.2m diameter has a surface charge density of 1.8µC/m?. Find the net charge on the sphere. b. What is the total electric flux leaving the sphere? What is the magnitude of the electric field at point P, 0.7m from the center of the sphere?Repeated problem, I know. I just want to verify the answer. Note: The net charge is +Q and not +2Q This is NOT a multiple choice.Question 4 A dielectric material with &, = 5 exists in the region p 3 is free space. If the electric flux density inside this material is given as D = 50p a, nC/m², find: i. iii. E and Pat p=2 P, and Pp at p=2 Pps at p=3 A 7
- Half ring uniformly charged with charge Q is placed on the 2nd and 3rd quadrant like you see in the picture. The radius is R. The linear charge density is A. What is the correct equation to find the x component of the electric field at the origin? 9Determine the electric flux through a Gaussian surface that contains 76 protons and 68 electrons. Use scientific/exponential notation to input your answer. Eg., 0.0001 can be written as 1.0e-4 or as 1.0E-4. Spaces not allowed. Hint: Get the net electric charge first. NOTE: DO NOT INCLUDE THE UNIT FOR THIS ITEM ONLY, JUST INPUT THE CALCULATED VALUE Ex: 1.1e2Take a look at the six charges in the figure: q₁= 10Q, q2= -5Q, q3= 4Q, q4= -3Q, q5= 7Q, and q₁= -Q. Three Gaussian surfaces, R, C, and T, surround these charges. How much net flux is passing through surface C? A. B. C. D. T Eo Eo 3Q €o 12Q Eo 93 R 91 92 96 94 95 7
- please answer with solution thank you!Problem 4: who is right? Two parallel, infinite planes of charge have charge densities +20 and -o as shown in Fig. 1 They are at a distance L, from each other. Three students are asked to determine the electric field at points A and B, at a distance L above the top plane, and at a distance L below the bottom plane, respectively, as shown in the figure. Each student comes up with a different answer and a different explanation. Read carefully their statements below. The students are reminded that the electric field magnitude of an infinite plane of charge with charge density a is E = . +26 3+26 Figure 1: Two cquivalent views of the two infinite parallel planes • Student 1 draws the sketch in Fig. 2 [top] and says: "I think from the outside we can think of the two planes as a single infinite plane with charge density +20 - o =0, so then we know the electric field must be a/(2) pointing upwards at point A and also o/(2c) pointing doumwards at B". • Student 2 draws the sketch in Fig. 2…A line charge is parallel to a perfectly conducting plate. This line charge is a distance (d) from the plate and has a charge density pl. 1. What is the voltage everywhere? 2. Find the electric field everywhere? 3. What is the surface charge density on the plate (ps)?